Fly-around-the-World Near-Space Picosatellite for Cost-Effective School Space Projects-Reference-Cited by-同舟云学术

Fly-around-the-World Near-Space Picosatellite for Cost-Effective School Space Projects

Published:2024-07-06 Issue:7 Volume:11 Page:557
ISSN:2226-4310
Container-title:Aerospace
language:en
Short-container-title:Aerospace

Author:

Techavijit Pirada¹^ORCID,Sukchalerm Polkit²,Wongphuangfuthaworn Natthapong³,Kiyapaet Sureepon³

Affiliation:

1. International Academy of Aviation Industry (IAAI), King Mongkut’s Institute of Technology Ladkrabang (KMITL), Ladkrabang, Bangkok 10520, Thailand

2. Daruna Ratchaburi School, Ratchaburi 70000, Thailand

3. Project Innovation Company Limited, Bangkok 10140, Thailand

Abstract

This research presents the design and development of a near-space picosatellite platform intended to operate at high altitudes between 20–40 km above sea level. These picosatellites function similarly to orbital satellites but float and travel with the wind in the atmosphere instead of orbiting the Earth. The platform utilizes a super-pressure balloon to provide buoyancy, allowing the picosatellite to remain airborne and operational for several days to months, capable of flying around the world multiple times. This study focuses on the cost-effective design of high-altitude platforms, telecommunication systems, and energy consumption for the picosatellite, enabling it to communicate with ground stations from anywhere in the world while consuming low power. The use of common COTS (Commercial Off-The-Shelf) equipment aims to enhance accessibility for educational applications. This research gathered data from our previous studies for over 20 high-altitude platform flights, analyzed the necessary factors for whole system design, and developed a new prototype that has been successfully built and tested.

Funder

King Mongkut’s Institute of Technology Ladkrabang

Publisher

MDPI AG

Link

https://www.mdpi.com/2226-4310/11/7/557/pdf

Reference29 articles.

1. Barbarick, C. (2024). A Look at How Technologies Devised for Space Have Revolutionized Healthcare, Space Foundation. Available online: https://www.spacefoundation.org/2020/03/26/a-look-at-how-technologies-devised-for-space-have-revolutionized-healthcare.

2. Fletcher, K., and Harris, R.A. (2002, January 22–25). The Next Generation of Innovative Space Engineers: University Students are Now Getting a Taste of Space Experience Building, Launching and Operating their Own Space Experiments with Low-Cost Picosatellites. Proceedings of the 5th ESA International Conference on Spacecraft Guidance, Navigation and Control Systems, Frascati, Italy. ESA SP-516.

3. Utility and constraints of PocketQubes;Bouwmeester;CEAS Space J.,2020

4. Gemignani, M., and Marcuccio, S. (2021). Dynamic Characterization of a High-Altitude Balloon during a Flight Campaign for the Detection of ISM Radio Background in the Stratosphere. Aerospace, 8.

5. Tang, J., Pu, S., Yu, P., Xie, W., Li, Y., and Hu, B. (2022). Research on Trajectory Prediction of a High-Altitude Zero-Pressure Balloon System to Assist Rapid Recovery. Aerospace, 9.